Most performance critical software is developed using very low-level techniques. We argue that this needs to change, and that generative programming is an effective avenue to enable the use of high-level languages and programming techniques in many such circumstances.ISSN:1868-896
cted from embedded implementations in a semi automated way, further blending the distinction between...
The power of high-level languages lies in their abstraction over hardware and software complexity, l...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Most performance critical software is developed using very low-level techniques. We argue that this ...
AbstractThe quality of compiler-optimized code for high-performance applications is far behind what ...
It is recognized that providing programmers with languages that are close to problem domain can incr...
Domain specific languages (DSLs) are mini-languages that are increasingly seen as being a valuable t...
As software moves to the daily routines and responsibilities of people, there is a need for developi...
The Problem: Software produced with current technology is typically opaque and brittle. That is, app...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
The quality of compiler-optimized code for high-performance applications lags way behind what optimi...
International audienceIn the software engineering community, research on domain-specific languages (...
Today’s languages, systems, and architectures include considerable support for generality and progra...
International audienceThe quality of compiler-optimized code for high-performance applications lags ...
International audienceGenerative Programming from a Domain-Specific Language Viewpoin
cted from embedded implementations in a semi automated way, further blending the distinction between...
The power of high-level languages lies in their abstraction over hardware and software complexity, l...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Most performance critical software is developed using very low-level techniques. We argue that this ...
AbstractThe quality of compiler-optimized code for high-performance applications is far behind what ...
It is recognized that providing programmers with languages that are close to problem domain can incr...
Domain specific languages (DSLs) are mini-languages that are increasingly seen as being a valuable t...
As software moves to the daily routines and responsibilities of people, there is a need for developi...
The Problem: Software produced with current technology is typically opaque and brittle. That is, app...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
The quality of compiler-optimized code for high-performance applications lags way behind what optimi...
International audienceIn the software engineering community, research on domain-specific languages (...
Today’s languages, systems, and architectures include considerable support for generality and progra...
International audienceThe quality of compiler-optimized code for high-performance applications lags ...
International audienceGenerative Programming from a Domain-Specific Language Viewpoin
cted from embedded implementations in a semi automated way, further blending the distinction between...
The power of high-level languages lies in their abstraction over hardware and software complexity, l...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...